User:LucaV83

= Raffaele Di Giacomo =

Contents

 * 1) Professional Experience
 * 2) Notable Work

Professional Experience
Raffaele Di Giacomo has an extensive academic and professional background, comprising both a PhD University of Salerno with one year spent at TU Berlin, along with postdoctoral experiences at ETH Zurich and Caltech. He has a strong track record in scientific publications and has been an invited presenter at prestigious conferences, including those at MIT and Gordon Research Conferences.

His expertise extends to the realms of AI cognitive architecture and the advancement of life science research, particularly leveraging Large Language Models (LLM).

1. Biomimetic Temperature-Sensing Layer for Artificial Skins
Di Giacomo co-authored "Biomimetic temperature-sensing layer for artificial skins," published in Science Robotics (2017). This paper, written with Luca Bonanomi, Vincenzo Costanza, Bruno Maresca, and Chiara Daraio, discusses the development of artificial membranes sensitive to temperature, a crucial advancement in robotics and bioengineering. The research introduced pectin films that emulate the sensitivity of pit viper membranes, showing a sensitivity of at least 10 millikelvin across a 45 kelvin range.

2. Plant Nanobionic Materials with a Giant Temperature Response
In the paper "Plant nanobionic materials with a giant temperature response mediated by pectin-Ca2+," published in the Proceedings of the National Academy of Sciences (2015), Di Giacomo, along with Chiara Daraio and Bruno Maresca, explored the creation of biomaterials through plant nanobionics. This study showed that combining isolated plant cells with carbon nanotubes resulted in materials with an extraordinary temperature coefficient of electrical resistance (TCR) of −1,730% K−1. This work underscores the potential of bioinspired materials in technological applications.

References:
''Di Giacomo, R., Bonanomi, L., Costanza, V., Maresca, B., Daraio, C. (2017). Biomimetic temperature-sensing layer for artificial skins. Science Robotics.''

''Di Giacomo, R., Daraio, C., Maresca, B. (2015). Plant nanobionic materials with a giant temperature response mediated by pectin-Ca2+. Proceedings of the National Academy of Sciences.''